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Session: Session 7D: Simulation methods & control
Session starts: Wednesday 11 September, 11:10
Presentation starts: 11:10
Room: Kallirhoe

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Roberto Pili (Technical University of Munich)
Sebastian Eyerer (Technical University of Munich)
Fabian Dawo (Technical University of Munich)
Christoph Wieland (Technical University of Munich)
Hartmut Spliethoff (Technical University of Munich)

Abstract:
Organic Rankine Cycle Systems (ORC) are able to convert efficiently low-temperature geothermal heat sources into mechanical and electrical power or combined heat and power. Especially when producing both heat and power, high operational flexibility is necessary to meet the heat demand and supply electricity in an efficient way. Advanced controllers, as linear quadratic integrators, can be used to guarantee the required flexibility of the ORC unit. Such advanced controllers rely on information on the system state, which is in general non-fully measurable. To reach this goal, state estimators are used and analyzed in this work. First, a dynamic model of an ORC test rig for geothermal application is developed and validated against experimental data. Subsequently, a non-linear state estimator for the ORC evaporator coupled with a screw expander is designed and tested on a benchmark case. The considered estimator is an Unscented Kalman Filter based on a finite volume model of the evaporator. The results show a good agreement among the dynamic and observer model and the experimental data. The estimated states by the filter can be fed to advanced single- or multi-variable controllers to maximize the ORC net power output and revenues. In the next future, the integration between the observer and an advanced control system will be analyzed and the performance under changes in electric load and heat demand will be tested both via simulations and experiments on the test rig.